Production of d-glucaric acid with phosphoglucose isomerase-deficient Saccharomyces cerevisiae

Author:

Toivari MerviORCID,Vehkomäki Maija-Leena,Ruohonen Laura,Penttilä Merja,Wiebe Marilyn G.

Abstract

Abstractd-Glucaric acid is a potential biobased platform chemical. Previously mainly Escherichia coli, but also the yeast Saccharomyces cerevisiae, and Pichia pastoris, have been engineered for conversion of d-glucose to d-glucaric acid via myo-inositol. One reason for low yields from the yeast strains is the strong flux towards glycolysis. Thus, to decrease the flux of d-glucose to biomass, and to increase d-glucaric acid yield, the four step d-glucaric acid pathway was introduced into a phosphoglucose isomerase deficient (Pgi1p-deficient) Saccharomyces cerevisiae strain. High d-glucose concentrations are toxic to the Pgi1p-deficient strains, so various feeding strategies and use of polymeric substrates were studied. Uniformly labelled 13C-glucose confirmed conversion of d-glucose to d-glucaric acid. In batch bioreactor cultures with pulsed d-fructose and ethanol provision 1.3 g d-glucaric acid L−1 was produced. The d-glucaric acid titer (0.71 g d-glucaric acid L−1) was lower in nitrogen limited conditions, but the yield, 0.23 g d-glucaric acid [g d-glucose consumed]−1, was among the highest that has so far been reported from yeast. Accumulation of myo-inositol indicated that myo-inositol oxygenase activity was limiting, and that there would be potential to even higher yield. The Pgi1p-deficiency in S. cerevisiae provides an approach that in combination with other reported modifications and bioprocess strategies would promote the development of high yield d-glucaric acid yeast strains.

Funder

Academy of Finland

European comission

Technical Research Centre of Finland

Publisher

Springer Science and Business Media LLC

Subject

General Medicine,Biotechnology,Bioengineering,Applied Microbiology and Biotechnology

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